A sphere is rolling without slipping on a fixed horizontal plane surface. In the figure
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A sphere is rolling without slipping on a fixed horizontal plane surface. In the figure, A is the point of contact, B is the centre of the sphere and C is its topmost point. Then
27
Nov
A sphere is rolling without slipping on a fixed horizontal plane surface. In the figure, A is the point of contact, B is the centre of the sphere and C is its topmost point. Then A is the point of contact A sphere is rolling without slipping on a fixed horizontal plane surface. In the [...]
A boy is pushing a ring of mass 2 kg and radius 0.5 m with a stick as shown in the figure. The stick applies a force of 2 N on the ring and rolls it without slipping with an acceleration of 0.3 m/s 2 .The coefficient of friction between the ground and the ring is large enough that rolling always occurs and the coefficient of friction between the stick and the ring is 10 P. The value of P is :
28
Sep
A boy is pushing a ring of mass 2 kg and radius 0.5 m with a stick as shown in the figure. The stick applies a force of 2 N on the ring and rolls it without slipping with an acceleration of 0.3 m/s 2 .The coefficient of friction between the ground and the ring [...]
A uniform circular disc of mass 1.5 kg and raius 0.5 m is initially ar rest on a horiozntal frictonless surface. Three forces of equal matgnitude F = 0.5 N are applied simultaneously along the three sides of an equilateral triangle XYZ with its vertices on the perimeter of the disc (see figure). One second after applying the forces the angular speed of the disc in rads−1 is
28
Sep
A uniform circular disc of mass 1.5 kg and raius 0.5 m is initially ar rest on a horiozntal frictonless surface. Three forces of equal matgnitude F = 0.5 N are applied simultaneously along the three sides of an equilateral triangle XYZ with its vertices on the perimeter of the disc (see figure). One second [...]
A lamina is made by removing a small disc of diameter 2 R from a bigger disc of uniform mass density and radius 2R, as shown in the figure. The moment of inertia of this lamina about axes passing though O and P is IOandIP respectively. Both these axes are perpendiucalr to the plane of the lamina. The ratio IP /IO ot the nearest integer is
28
Sep
A lamina is made by removing a small disc of diameter 2 R from a bigger disc of uniform mass density and radius 2R, as shown in the figure. The moment of inertia of this lamina about axes passing though O and P is IOandIP respectively. Both these axes are perpendiucalr to the plane of [...]
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A is the point of contact ,
A lamina is made by removing a small disc of diameter 2 R from a bigger disc of uniform mass density and radius 2R ,
A sphere is rolling without slipping on a fixed horizontal plane surface. In the figure ,
B is the centre of the sphere and C is its topmost point. Then: ,
Four solid spheres each of diameter √ 5 cm and mass 0.5 kg are placed with their centers at the corner of a square of side 4 cm. The moment of inertia of the system about the diagonal of the square is N × 10^− 4 kg/m^2, then N is_____
28
Sep
Four solid spheres each of diameter √ 5 cm and mass 0.5 kg are placed with their centers at the corner of a square of side 4 cm. The moment of inertia of the system about the diagonal of the square is N × 10^− 4 kg/m^2, then N is_____ A is the point of [...]
In the figure, a ladder of mass m is shown leaning against a wall. It is in static equilibrium making an angle θ with the horizontal floor. The coefficient of friction between the wall and the ladder is μ1 and that between the floor and the ladder is μ2. the normal reaction of the wall on the ladder is N1 and that of the floor is N2. if the ladder is about to slip. than
28
Sep
In the figure, a ladder of mass m is shown leaning against a wall. It is in static equilibrium making an angle θ with the horizontal floor. The coefficient of friction between the wall and the ladder is μ1 and that between the floor and the ladder is μ2. the normal reaction of the wall [...]
The figure shows a system consisting of (i) a ring the outer radius 3R rolling clockwise without slipping on a horizontal surface with angular speed ω and (ii) an inner disc of radius 2R rotating anti clockwise with angular speed ω/2. The ring and disc are separted. The point P on the inner disc is at a distance R from the origin, where OP makes an angle of 30∘ with the horizontal. Then with respect to the horizontal surface,
28
Sep
The figure shows a system consisting of (i) a ring the outer radius 3R rolling clockwise without slipping on a horizontal surface with angular speed ω and (ii) an inner disc of radius 2R rotating anti clockwise with angular speed ω/2. The ring and disc are separted. The point P on the inner disc is [...]
A sphere is rolling without slipping on a fixed horizontal plane surface. In the figure, A is the point of contact, B is the centre of the sphere and C is its topmost point. Then:
28
Sep
A sphere is rolling without slipping on a fixed horizontal plane surface. In the figure, A is the point of contact, B is the centre of the sphere and C is its topmost point. Then: A is the point of contact A sphere is rolling without slipping on a fixed horizontal plane surface. In the [...]